The DME Facility Focus survey revealed best practices for coping with the challenges of aging facilities.
Facility modernization can be a complex and difficult process even under the best of circumstances, but when one factors in the global regulatory hurdles in pharmaceutical manufacturing, the challenges are significantly greater. However, the reality of aging facilities that must be maintained in a state that is reliable, efficient, and compliant with current good manufacturing practice cannot be avoided. Successful implementation of change must be executed with a good understanding of the challenges associated with introducing new technology and an execution strategy that proactively achieves strategic outcomes.
Obstacles to new technology implementation
In an industry-wide survey of the lifesciences sector conducted by DME in partnership with INTERPHEX, DME Facility Focus (1), industry insiders—those in engineering and operations roles—were asked what they believed was the biggest obstacle to the adoption of new technologies for facility modernization. As shown in Figure 1, the majority (62% of respondents) indicated that regulatory challenges (process validation or regulatory acceptance) were their biggest concerns. The remaining survey participants cited the biggest obstacle as process development requirements (18%), lack of industry standards (12%), and insecure vendor supply chain (5%). Those with “other” responses (4%) most frequently indicated their belief that general industry conservatism is the biggest obstacle.
This finding is consistent with a recent survey by the Parenteral Drug Association (PDA), which reportedly suggested, among other things, “that product-related post-approval changes (PACs), and the time and investment that they require, are stifling conversion to new technologies or methods” (2). In response, PDA established a task force (PAC iAM) to seek comprehensive post-approval change reform, focusing on the global regulatory challenges. As group members noted in an op-ed published in the August 2016 edition of PDA Letter, these challenges “create a disincentive—albeit unintentional—for manufacturers to integrate growing product and process knowledge, continually improve, or innovate technologies” (3). In their public call to action, the taskforce went on to link the current post-approval change environment to drug shortages and deferred process improvement, writing, “In order to avoid the burden of implementing changes in such a complex environment, many [manufacturers] find it easier to postpone improvements to facilities, processes, and analytics, or simply refrain from planning advancements at all.”
While PDA focuses on systemic change through a global forum and their regulatory harmonization efforts, manufacturers still need to deal with aging facilities in the here and now. The DME Facility Focus survey provided further insights into how manufacturers are coping with these challenges.
When asked what new technologies they have introduced as part of a facility modernization project, ranked from most common to least common technology, participants responded as follows:
- Process automation
- Clean-in-place (CIP) improvement
- Continuous manufacturing
- Modular construction.
As shown in Figure 2, these trends generally held true even when broken down by industry cohort. The lone exception is single-use technology, which is far more commonly implemented in biologics manufacturing than chemical synthesis.
The most common technologies implemented likely correspond to post-approval changes that yield the greatest advantage and are easiest to implement. There is a strong case to be made that the most frequent type of change, process automation upgrades, will improve product quality, particularly when the operations being automated were originally manual. In many instances, it’s relatively easy to demonstrate that process automation changes will not adversely affect the manufacturing process. In addition, the DME survey found that aging automation drives 11% of equipment obsolescence issues in legacy equipment (1). Automation can also be a key component in the corrective action addressing manufacturing deviations.
The second most common technology, single-use, has garnered a lot of attention in recent years as manufacturers explore the potential for bioprocessing with a completely disposable wetted path. Such facilities could potentially do away with expensive utility systems associated with cleaning, and they promise less reliance on cleanroom environments for process segregation. These initiatives, however, require a purpose-built facility and a significant commitment to process development within the single-use framework and are, therefore, more useful as a platform for new products in the pipeline. The prevalence of single-use technology in facility modernization projects is most likely limited to the replacement of specific unit operations and procedures within traditional facilities with predominately stainless-steel equipment. The replacement of a sampling system on a stainless-steel process vessel with a disposable sample assembly is a good example of the kind of process change that can yield a significant improvement with a reasonable post-approval change effort. Similarly, manufacturers have adopted single-use bag systems for supporting operations such as buffer preparation and hold vessels without disrupting the primary unit operations that are processing product.
The survey findings suggest that manufacturers choose to selectively introduce new technology in aging facilities where the potential benefits significantly outweigh the pain points (e.g., total cost and risk due to many aspects of implementing a change). In legacy facilities, a new technology is strategically adopted in areas that yield the greatest benefit and where it is relatively easy to demonstrate that the change will not adversely affect product quality.
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